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首页> 外文期刊>Journal of Materials Chemistry, B. materials for biology and medicine >Shuttle/sink model composed of beta-cyclodextrin and simvastatin-loaded discoidal reconstituted high-density lipoprotein for enhanced cholesterol efflux and drug uptake in macrophage/foam cells
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Shuttle/sink model composed of beta-cyclodextrin and simvastatin-loaded discoidal reconstituted high-density lipoprotein for enhanced cholesterol efflux and drug uptake in macrophage/foam cells

机译:用于增强胆固醇的胆固醇流出和药物吸收的β-环糊精和辛伐他汀装载的盘状轻度脂蛋白组成的梭子/水槽型号组成。巨噬细胞/泡沫细胞的药物吸收

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Targeting drug delivery to macrophage/foam cells is challenged owing to the poor cell permeability and fluidity resulting from the massive accumulation of intracellular cholesterol in atherosclerosis (AS). Discoidal reconstituted high-density lipoprotein (d-rHDL) has been well regarded as a potential drug delivery system for AS by virtue of its plaque-targeting and cholesterol removal abilities, while the latter is compromised by the high activation energy of cholesterol efflux. It is reported that a low concentration of beta-cyclodextrin (beta-CD) can function as a cholesterol shuttle to promote cholesterol efflux from cells to the extracellular acceptors (cholesterol sink, such as HDL particles), but it is still unknown whether the combination of beta-CD with a drug-loaded d-rHDL can function as a shuttle/sink model to promote the remodeling and drug release of the d-rHDL carrier after accelerating the cholesterol efflux. Furthermore, it is interesting to investigate whether enhanced cholesterol efflux can improve the cellular drug uptake by restoring the permeability and fluidity of the cell membrane. Here, simvastatin-loaded d-rHDL (ST-d-rHDL) was combined with different concentrations of beta-CD. Compared with ST-d-rHDL alone, the cholesterol removal ability of ST-d-rHDL combined with 0.5 mM of beta-CD increased by 31-fold after incubation for 6 h and the cumulative drug release of ST-d-rHDL increased by two-fold during the initial 1 h in an acellular mimetic system. In macrophage/foam cells, 0.5 mM of beta-CD showed superior promoting effects in the cholesterol removal ability and remodeling of ST-d-rHDL compared to 0.1 mM of beta-CD. The high concentration of beta-CD at 2 mM displayed a low efficiency for accelerating cholesterol efflux, which might function as a cholesterol sink rather than a cholesterol shuttle. Moreover, the permeability and fluidity of the cell membrane were improved by combining 0.5 mM of beta-CD with ST-d-rHDL, which exhibited an enhanced cellular drug uptake and inhibiting effect on the intracellular lipid deposition and secretion of inflammatory cytokine. Collectively, combination of beta-CD and ST-d-rHDL as a shuttle/sink model could enhance cholesterol efflux and drug uptake to suppress inflammation in macrophage/foam cells.
机译:由于细胞粥样硬化(AS)中的细胞内胆固醇的巨大积累,靶向对巨噬细胞/泡沫细胞的药物递送造成挑战。随着其斑块靶向和胆固醇的去除能力,Liquidal重构的高密度脂蛋白(D-RHDL)被充分被称为潜在的药物递送系统,而后者被胆固醇流出的高活化能损害。据报道,低浓度的β-环糊精(β-CD)可以用作胆固醇梭子,以促进从细胞到细胞外受体(胆固醇水槽,例如HDL颗粒)的胆固醇流出,但仍然是尚不清楚吗哪种组合β-CD具有药物负载的D-RHDL可以用作梭子/水槽模型,以在加速胆固醇流出后促进D-RHDL载体的重塑和药物释放。此外,有趣的是调查是否通过恢复细胞膜的渗透率和流动性来改善细胞吸毒性的增强型胆固醇的渗出。这里,将辛伐他汀负载的D-RHDL(ST-D-RHDL)与不同浓度的β-CD合并。与单独的ST-D-RHDL相比,ST-D-RHDL的胆固醇去除能力与0.5mm的β-CD加入6小时后增加31倍,并且ST-D-RHDL的累积药物释放增加在初始1小时内为一部分粒状模拟系统。在巨噬细胞/泡沫细胞中,0.5mm的β-CD显示出在胆固醇的去除能力和ST-D-RHD1的重塑中的优异促进作用与0.1mm的β-Cd相比。高浓度的β-CD为2mm,效率低于加速胆固醇流出,这可能用作胆固醇水槽而不是胆固醇梭子。此外,通过将0.5mm的β-CD与ST-D-RHD1组合,改善了细胞膜的渗透性和流动性,这表现出增强的细胞吸毒吸收和对细胞内脂质沉积和炎症细胞因子分泌的抑制作用。集体,Beta-CD和ST-D-RHDL作为梭子/水槽模型的组合可以增强胆固醇的流出和药物吸收以抑制巨噬细胞/泡沫细胞中的炎症。

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